C Scarinci scite author profile

The entry of the human immunodeficiency virus type 1 (HIV-1) into target cells requires the interaction of viral envelope glycoprotein, gp120, with the human CD4 glycoprotein and a chemokine receptor, usually CCR5 or CXCR4. The natural ligand for CXCR4 is the chemokine SDF-1 that inhibits entry and replication of X4 HIV-1 strains. SDF-1 is produced in two forms, SDF-1alpha (68 residues) and SDF-1beta (72 residues); the difference between them lies in the additional four C-terminal amino acids in the SDF-1beta sequence. Despite the relevance of the N-terminal site in determining the SDF anti HIV-1 activity, SDF-1beta has a stronger activity than SDF-1alpha. Here we demonstrate that a synthetic peptide mapped on the C-terminus of SDF-1beta presents inhibitory activity, whereas an analogue reproducing the C-terminal trait of SDF-1alpha does not show any activity. The opposite biological effect of the two peptides correlates with the type of interaction they each have with heparin and chondroitin sulfate.

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Structural Investigation of the HIV-1 Envelope Glycoprotein gp160 Cleavage Site

Oliva¹,

Leone

Falcigno³

et al. 2002

Chem. Eur. J.

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The selective proteolytic activation of the HIV‐1 envelope glycoprotein gp160 by furin and other precursor convertases (PCs) occurs at the carboxyl side of the sequence Arg508‐Glu‐Lys‐Arg511 (site 1), in spite of the presence of another consensus sequence: Lys500‐Ala‐Lys‐Arg503 (site 2). We report on the solution structural analysis of a 19‐residue synthetic peptide, p498, which spans the two gp160‐processing sites 1 and 2, and is properly digested by furin at site 1. A molecular model is obtained for p498, by means of molecular dynamics simulations, from NMR data collected in trifluoroethanol/water. The peptide N‐terminal side presents a 9‐residue helical segment, enclosing the processing site 2; the C‐terminal segment can be described as a loop exposing the processing site 1. A hypothesis for the docking of p498 onto the catalytic domain of human furin, modeled by homology and fitting previous site‐directed mutagenesis studies, is also presented. p498 site 1 is shown to have easy access to the furin catalytic site, unlike the nonphysiological site 2. Finally, on the basis of available data, we suggest a possible structural motif required for the gp160–PCs recognition.

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Is the V3 Loop Involved in HIV Binding to CD4?

Dettin¹,

Ferranti²,

Scarinci³

et al. 2003

Biochemistry

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The entry of the human immunodeficiency virus into cells requires the interaction of the viral envelope glycoprotein gp120 with CD4 and a chemokine receptor. The gp120 binding site has been previously mapped to the Ig-CDR2-like region of CD4 first domain. A second area of this domain (Ig-CDR3-like region) is involved in gp120-CD4 interactions, but its gp120 counterpart remained so far unknown. Using a photoaffinity labeling experiment, we demonstrate that a peptide, mapping the (307-330)m region of HIV-MN-gp120 V3 loop, binds a sequence including a part of the Ig-CDR3-like region. These results may contribute to explain the complex mechanism of human immunodeficiency virus penetration, helping the development of new therapeutic agents.

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Structural Investigation of the HIV‐1 Envelope Glycoprotein gp160 Cleavage Site, 2: Relevance of an N‐Terminal Helix

et al. 2003

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Proteolytic activation of the HIV-1 envelope glycoprotein gp160 is selectively performed by the proprotein convertase furin at the C-terminus of the sequence R508-E-K-R511 (site 1), in spite of the presence of another consensus sequence, Lys500-Ala-Lys-Arg503 (site 2). On the basis of the solution structural analysis of the synthetic peptide p498, spanning the gp160 sequence Pro498-Gly516, we previously suggested a possible role of an N-terminal helix in regulating the exposure and accessibility of the gp160 physiological cleavage site, enclosed in a loop. Here we report on the activity and conformation of the 23-residue peptide h-REKR, designed to exhibit a large N-terminal helix, followed by the gp160 native sequence, Arg508-Gly516. h-REKR is digested by furin with high efficiency, comparable to the full native p498. Circular dichroism analyses, in mixtures from pure water to 98 % trifluoroethanol, outline a significant content of helical structure in the peptide conformation. The molecular model obtained from NMR data collected in trifluoroethanol/water, by means of DYANA and AMBER simulations, indeed has helical structure on a large N-terminal segment. Such a long helix does not seem to affect the loop conformation of the C-terminal site 1-containing sequence, which exhibits the same proton chemical shifts already observed for the full native p498.

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C Scarinci

Structural Investigation and Kinetic Characterization of Potential Cleavage Sites of HIV Gp160 by Human Furin and Pc1

Anti-HIV Activity and Conformational Studies of Peptides Derived from the C-Terminal Sequence of SDF-1

Structural Investigation of the HIV-1 Envelope Glycoprotein gp160 Cleavage Site

Is the V3 Loop Involved in HIV Binding to CD4?

Structural Investigation of the HIV‐1 Envelope Glycoprotein gp160 Cleavage Site, 2: Relevance of an N‐Terminal Helix

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